-
1
-
-
41549156886
-
High-throughput silicon nanophotonic wavelength-insensitive switch for on-chip optical networks
-
Y. Vlasov, W. M. J. Green, and F. Xia, "High-throughput silicon nanophotonic wavelength-insensitive switch for on-chip optical networks," Nat. Photonics 2(4), 242-246 (2008).
-
(2008)
Nat. Photonics
, vol.2
, Issue.4
, pp. 242-246
-
-
Vlasov, Y.1
Green, W.M.J.2
Xia, F.3
-
2
-
-
49149095791
-
Photonic networks-on-chip for future generations of chip multiprocessors
-
A. Shacham, K. Bergman, and L. P. Carloni, "Photonic networks-on-chip for future generations of chip multiprocessors," IEEE Trans. Comput. 57(9), 1246-1260 (2008).
-
(2008)
IEEE Trans. Comput.
, vol.57
, Issue.9
, pp. 1246-1260
-
-
Shacham, A.1
Bergman, K.2
Carloni, L.P.3
-
3
-
-
16244422171
-
Interconnect-power dissipation in a microprocessor
-
Session Interconnect Anal. SoCs Microprocess., 7-13
-
N. Magen, A. Kolodny, U. Weiser, and N. Shamir, "Interconnect-power dissipation in a microprocessor," Proc. 2004 Int. Workshop System Level Interconnect Prediction, Session Interconnect Anal. SoCs Microprocess., 7-13 (2004).
-
(2004)
Proc. 2004 Int. Workshop System Level Interconnect Prediction
-
-
Magen, N.1
Kolodny, A.2
Weiser, U.3
Shamir, N.4
-
4
-
-
0036149420
-
Networks on chips: A new SoC paradigm
-
DOI 10.1109/2.976921
-
L. Benini, and G. De Micheli, "Networks on chips: A new SoC paradigm," IEEE Computer 35, 70-78 (2002). (Pubitemid 34069383)
-
(2002)
Computer
, vol.35
, Issue.1
, pp. 70-78
-
-
Benini, L.1
De Micheli, G.2
-
5
-
-
34548858682
-
An 80-Tile 1.28TFLOPS Network-on-Chip in 65nm CMOS
-
ISSCC 2007. 98-589
-
S. Vangal, J. Howard, G. Ruhl, S. Dighe, H. Wilson, J. Tschanz, D. Finan, P. Iyer, A. Singh, T. Jacob, S. Jain, S. Venkataraman, Y. Hoskote, and N. Borkar, "An 80-Tile 1.28TFLOPS Network-on-Chip in 65nm CMOS," IEEE International Solid-State Circuits Conference, 2007. ISSCC 2007. 98-589 (2007).
-
(2007)
IEEE International Solid-State Circuits Conference, 2007.
-
-
Vangal, S.1
Howard, J.2
Ruhl, G.3
Dighe, S.4
Wilson, H.5
Tschanz, J.6
Finan, D.7
Iyer, P.8
Singh, A.9
Jacob, T.10
Jain, S.11
Venkataraman, S.12
Hoskote, Y.13
Borkar, N.14
-
6
-
-
84894401732
-
-
http://www.itrs.net/Links/2007ITRS/Home2007.htm.
-
-
-
-
7
-
-
67449128189
-
Device requirements for optical interconnects to silicon chips
-
D. A. B. Miller, "Device Requirements for Optical Interconnects to Silicon Chips," Proc. IEEE 97, 1166-1185 (2009).
-
(2009)
Proc. IEEE
, vol.97
, pp. 1166-1185
-
-
Miller, D.A.B.1
-
8
-
-
68449093717
-
Operation of a 25-Gb/s direct modulation ridge waveguide MQW-DFB laser up to 85 C
-
T. Tadokoro, T. Yamanaka, F. Kano, H. Oohashi, Y. Kondo, and K. Kishi, "Operation of a 25-Gb/s direct modulation ridge waveguide MQW-DFB laser up to 85 C," IEEE Photon. Technol. Lett. 21(16), 1154-1156 (2009).
-
(2009)
IEEE Photon. Technol. Lett.
, vol.21
, Issue.16
, pp. 1154-1156
-
-
Tadokoro, T.1
Yamanaka, T.2
Kano, F.3
Oohashi, H.4
Kondo, Y.5
Kishi, K.6
-
9
-
-
67650792482
-
1.3-μm AlGaInAs multiple-quantum-well semi-insulating buried-heterostructure distributed-feedback lasers for high-speed direct modulation
-
K. Otsubo, M. Matsuda, K. Takada, S. Okumura, M. Ekawa, H. Tanaka, S. Ide, K. Mori, and T. Yamamoto, "1.3-μm AlGaInAs multiple-quantum-well semi-insulating buried-heterostructure distributed-feedback lasers for high-speed direct modulation," IEEE J. Sel. Top. Quantum Electron. 15, 687-693 (2009).
-
(2009)
IEEE J. Sel. Top. Quantum Electron.
, vol.15
, pp. 687-693
-
-
Otsubo, K.1
Matsuda, M.2
Takada, K.3
Okumura, S.4
Ekawa, M.5
Tanaka, H.6
Ide, S.7
Mori, K.8
Yamamoto, T.9
-
10
-
-
67650895831
-
Efficient, high-data-rate, tapered oxide-aperture vertical-cavity surface-emitting lasers
-
Y.-C. Chang, and L. A. Coldren, "Efficient, high-data-rate, tapered oxide-aperture vertical-cavity surface-emitting lasers," IEEE J. Sel. Top. Quantum Electron. 15(3), 1-12 (2009).
-
(2009)
IEEE J. Sel. Top. Quantum Electron.
, vol.15
, Issue.3
, pp. 1-12
-
-
Chang, Y.-C.1
Coldren, L.A.2
-
11
-
-
77954428161
-
Sub-femtojoule all-optical switching using a photonic-crystal nanocavity
-
K. Nozaki, T. Tanabe, A. Shinya, S. Matsuo, T. Sato, H. Taniyama, and M. Notomi, "Sub-femtojoule all-optical switching using a photonic-crystal nanocavity," Nat. Photonics 4(7), 477-483 (2010).
-
(2010)
Nat. Photonics
, vol.4
, Issue.7
, pp. 477-483
-
-
Nozaki, K.1
Tanabe, T.2
Shinya, A.3
Matsuo, S.4
Sato, T.5
Taniyama, H.6
Notomi, M.7
-
12
-
-
84894398781
-
Low power nanophotonic devices based on photonic crystals towards dense photonic network on chip
-
to appear in
-
M. Notomi, A. Shinya, K. Nozaki, T. Tanabe, S. Matsuo, E. Kuramochi, T. Sato, H. Taniyama and H. Sumikura, "Low power nanophotonic devices based on photonic crystals towards dense photonic network on chip," to appear in IET Circ. Dev. Syst.
-
IET Circ. Dev. Syst.
-
-
Notomi, M.1
Shinya, A.2
Nozaki, K.3
Tanabe, T.4
Matsuo, S.5
Kuramochi, E.6
Sato, T.7
Taniyama, H.8
Sumikura, H.9
-
13
-
-
33745452452
-
Room temperature continuous-wave lasing in photonic crystal nanocavity
-
M. Nomura, S. Iwamoto, K. Watanabe, N. Kumagai, Y. Nakata, S. Ishida, and Y. Arakawa, "Room temperature continuous-wave lasing in photonic crystal nanocavity," Opt. Express 14(13), 6308-6315 (2006).
-
(2006)
Opt. Express
, vol.14
, Issue.13
, pp. 6308-6315
-
-
Nomura, M.1
Iwamoto, S.2
Watanabe, K.3
Kumagai, N.4
Nakata, Y.5
Ishida, S.6
Arakawa, Y.7
-
14
-
-
34250174546
-
Room temperature continuous wave operation and controlled spontaneous emission in ultrasmall photonic crystal nanolaser
-
DOI 10.1364/OE.15.007506
-
K. Nozaki, S. Kita, and T. Baba, "Room temperature continuous wave operation and controlled spontaneous emission in ultrasmall photonic crystal nanolaser," Opt. Express 15(12), 7506-7514 (2007). (Pubitemid 46906961)
-
(2007)
Optics Express
, vol.15
, Issue.12
, pp. 7506-7514
-
-
Nozaki, K.1
Kita, S.2
Baba, T.3
-
15
-
-
77956287870
-
High-speed ultracompact buried heterostructure photonic-crystal laser with 13 fJ of energy consumed per bit transmitted
-
S. Matsuo, A. Shinya, T. Kakitsuka, K. Nozaki, T. Segawa, T. Sato, Y. Kawaguchi, and M. Notomi, "High-speed ultracompact buried heterostructure photonic-crystal laser with 13 fJ of energy consumed per bit transmitted," Nat. Photonics 4(9), 648-654 (2010).
-
(2010)
Nat. Photonics
, vol.4
, Issue.9
, pp. 648-654
-
-
Matsuo, S.1
Shinya, A.2
Kakitsuka, T.3
Nozaki, K.4
Segawa, T.5
Sato, T.6
Kawaguchi, Y.7
Notomi, M.8
-
16
-
-
70350604237
-
Au-Au Surface-Activated Bonding and Its Application to Optical Microsensors With 3-D Structure
-
E. Higurashi, D. Chino, T. Suga, and R. Sawada, "Au-Au Surface-Activated Bonding and Its Application to Optical Microsensors With 3-D Structure," IEEE J. Sel. Top. Quantum Electron. 15(5), 1500-1505 (2009).
-
(2009)
IEEE J. Sel. Top. Quantum Electron.
, vol.15
, Issue.5
, pp. 1500-1505
-
-
Higurashi, E.1
Chino, D.2
Suga, T.3
Sawada, R.4
-
17
-
-
34247531405
-
Trapping and delaying photons for one nanosecond in an ultrasmall high-Q photonic-crystal nanocavity
-
T. Tanabe, M. Notomi, E. Kuramochi, A. Shinya, and H. Taniyama, "Trapping and delaying photons for one nanosecond in an ultrasmall high-Q photonic-crystal nanocavity," Nat. Photonics 1(1), 49-52 (2007).
-
(2007)
Nat. Photonics
, vol.1
, Issue.1
, pp. 49-52
-
-
Tanabe, T.1
Notomi, M.2
Kuramochi, E.3
Shinya, A.4
Taniyama, H.5
-
18
-
-
56249126797
-
On-demand ultrahigh-Q cavity formation and photon pinning via dynamic waveguide tuning
-
M. Notomi, and H. Taniyama, "On-demand ultrahigh-Q cavity formation and photon pinning via dynamic waveguide tuning," Opt. Express 16(23), 18657-18666 (2008).
-
(2008)
Opt. Express
, vol.16
, Issue.23
, pp. 18657-18666
-
-
Notomi, M.1
Taniyama, H.2
-
19
-
-
67749093221
-
Lateral current injection GaInAsP/InP laser on semi-insulating substrate for membrane-based photonic circuits
-
T. Okumura, M. Kurokawa, M. Shirao, D. Kondo, H. Ito, N. Nishiyama, T. Maruyama, and S. Arai, "Lateral current injection GaInAsP/InP laser on semi-insulating substrate for membrane-based photonic circuits," Opt. Express 17(15), 12564-12570 (2009).
-
(2009)
Opt. Express
, vol.17
, Issue.15
, pp. 12564-12570
-
-
Okumura, T.1
Kurokawa, M.2
Shirao, M.3
Kondo, D.4
Ito, H.5
Nishiyama, N.6
Maruyama, T.7
Arai, S.8
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